Researchers Make a High-Performance Battery From Junkyard Scraps

Science_afficionado writes: A team of engineers and materials scientists at Vanderbilt University have discovered how to make high-performance batteries using scraps of metal from the junkyard and common household chemicals. The researchers believe their innovation could provide the large amounts of economical electrical storage required by the grid to handle alternative energy sources and may ultimately allow homeowners to build their own batteries and disconnect entirely from the grid. Vanderbilt University News reports: "To make such a future possible, Pint headed a research team that used scraps of steel and brass -- two of the most commonly discarded materials -- to create the world's first steel-brass battery that can store energy at levels comparable to lead-acid batteries while charging and discharging at rates comparable to ultra-fast charging supercapacitors. The research team, which consists of graduates and undergraduates in Vanderbilt's interdisciplinary materials science program and department of mechanical engineering, describe this achievement in a paper titled 'From the Junkyard to the Power Grid: Ambient Processing of Scrap Metals into Nanostructured Electrodes for Ultrafast Rechargeable Batteries' published online this week in the journal ACS Energy Letters. The secret to unlocking this performance is anodization, a common chemical treatment used to give aluminum a durable and decorative finish. When scraps of steel and brass are anodized using a common household chemical and residential electrical current, the researchers found that the metal surfaces are restructured into nanometer-sized networks of metal oxide that can store and release energy when reacting with a water-based liquid electrolyte. The team determined that these nanometer domains explain the fast charging behavior that they observed, as well as the battery's exceptional stability. They tested it for 5,000 consecutive charging cycles -- the equivalent of over 13 years of daily charging and discharging -- and found that it retained more than 90 percent of its capacity."

Re:Patent?

[Maxwell'sSilverLART]

In addition, I really can't see most people building their own batteries of sufficient storage capacity to power a home during peak usage time. Maybe an "Almost Ready to Charge(ARC)" kit that you would just have to add electrolyte to before using.

I can't see even that much. Messing with house wiring can be dangerous, both to the user and to people down the line (literally). Just plugging it in and letting it backfeed could get someone killed; there's a reason generators have to be installed with a cutoff switch to prevent that possibility.

Re:MacGyver

[mlts]

Supercaps have their place. Even though they have a lot less energy density than batteries, they are useful to have with a solar array just because they can be charged up quickly, with less need of a precise charge controller with scaling voltages to SoC levels (especially lithium batteries that will go boom if they are not precisely charged/discharged). Supercaps can allow charging to continue for batteries for a little bit after the sun goes down as well as help maintain an even charge if a cloud passes over the panels.

It would be nice to see some advance to allow supercaps to have a better energy density per volume. The fact that they have a virtually unlimited charge/discharge life (as the charging is a physical, not chemical process) and they can handle a lot of incoming amperage is quite nice.

Re:Improved nickel iron battery

[mlts]

NiFe batteries definitely have a place. Iron Edison batteries are used in stationary solar arrays because they are easy to take care of (built in watering system), and can handle a lot of cycles. Long life is crucial in this application. NiFe batteries also don't get damaged when their charge level is below 50%.

However, NiFe batteries have a relatively low energy per volume density compared to lead-acid or lithium batteries. You wouldn't want to use NiFe batteries as electrical storage in your campervan, for example.

Re:Patent?

[rickyslashdot]

Here we go again - a 'private' institution garnering information and expertise from the PEOPLE's funds - NASA and other 'public' funded agencies - - - and NASA explicitly states that they release their information on a "NON-EXCLUSIVE" license - in other words, ANYBODY can ask for, and GET, authorization to use their research.
WHY in the hell is this information locked up behind a pay-wall ?
Best guess - money hungry, and with no morale compass.

Here's the link, provided by ???? for the actual article and data ---> http://pubs.acs.org/doi/suppl/...

More info can be garnered from ---> http://pubs.acs.org/

and at ---> http://pubs.acs.org/doi/suppl/...

REALLY a pain to follow-up on, but worth the effort due to another /. contributor providing REAL information